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Elementary Particle Physics Experiment: The ATLAS experiment at the LHC

Elementary Particle Physics Experiment: The ATLAS experiment at the LHC. University of Massachusetts, Amherst Graduate Research Orientation 1 Feb 2010. The UMass ATLAS Group. Faculty Ben Brau - LGRT 1032 Carlo Dallapiccola - LGRT 1038 Stephane Willocq - LGRT 1042 Postdoctoral Researchers

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Elementary Particle Physics Experiment: The ATLAS experiment at the LHC

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  1. Elementary Particle Physics Experiment:The ATLAS experiment at the LHC University of Massachusetts, AmherstGraduate Research Orientation1 Feb 2010 Experimental Particle Physics

  2. The UMass ATLAS Group • Faculty • Ben Brau - LGRT 1032 • Carlo Dallapiccola - LGRT 1038 • Stephane Willocq - LGRT 1042 • Postdoctoral Researchers • Ed Moyse, Elisa Pueschel, Niels Van Eldik, Martin Woudstra - CERN • Graduate Students • Andrew Meade, Emily Thompson - CERN • German Colon, Preema Pais, Tulin Verol - LGRT 1036 Experimental Particle Physics

  3. What is Particle Physics About? Experiments can address long standing puzzles / questions: • What are the fundamental constituents of matter? • What are the fundamental forces between elementary particles? • Can the forces of nature be unified? Including gravity? • What is the origin of mass? • What is the origin of the matter-antimatter asymmetry of the Universe? • What is dark matter? • Are there extra dimensions? + many more… Experimental Particle Physics

  4. How can we answer these Fundamental Questions? • Particle Accelerators • Reach very high collision energies to probeextremely small distance scales (< 10-18 m) • Research at the energy frontier (a few TeV) with theATLAS experiment at the Large Hadron Collider (LHC) 10 x higher energy than previous colliders search for • Higgs boson (origin of mass?) • SuperSymmetric particles (dark matter candidate?) • New interactions (heavy gauge bosons, extra dimensions?) Experimental Particle Physics

  5. 14 TeV The Large Hadron Collider (LHC) • Proton-proton collider circumference = 27 km • Energy = 7 TeV / beam√s = 14 TeV • Stored energy / beam = 350 MJ (!) • Bunch spacing = 25 ns 40 MHz crossing rate • Design luminosity= 1034 cm-2 s-1 • Number of interactionsper crossing ~23 Collisions expected in late 2009 Run for ~10-15 years Lake Geneva  CERN Main Site  ATLAS CMS Experimental Particle Physics

  6. The ATLAS Detector @ LHC EM Calorimeter Muon Detectors Inner Tracker Hadronic Calorimeter Diameter 25 m Barrel toroid length 26 m End-cap end-wall chamber span 46 m Overall weight 7000 Tons Experimental Particle Physics

  7. Experimental Particle Physics

  8. November 2005 February 2008 August 2006 September 2006 Experimental Particle Physics

  9. ATLAS Data Event Experimental Particle Physics

  10. UMass Work on ATLAS • Software development for Muon Spectrometer • Leading muon reconstruction effort(SW co-coordinator, EM event data model leader) • Validation of detector description, performance improvements • Physics analysis = Search for new physics • Search for new heavy gauge bosons (new interactions) • Alternatives to Higgs mechanism (origin of mass) • Signs of extra (large) dimensions: micro black holes • Model-Independent: Hints of things we haven’t thought of yet • More information at http://people.umass.edu/eppex/ Experimental Particle Physics

  11. LHC Schedule • First Physics Run at 3.5 GeV on 3.5 GeV begins now. • Run will continue through 2010 and 2011, with a goal luminosity of 1 fb-1. • All splices will be repaired in a long (~year) shutdown. • High-energy 7GeV on 7GeV will begin ~2013. Experimental Particle Physics

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